DE2403679A1 - EXHAUST VALVE FOR THE CLEANING PROCESS IN AN INERT GAS SYSTEM - Google Patents

Description

Misuzu Machineries & Engineering Ltd. 25, Sakaemachi-dori 5-chome, Ikutaku Kobe-city, Japan

Exhaust valve for the cleaning process in an inert gas system

The present invention relates to improved valves for exhaust gases installed in the exhaust pipes of a gas generator and which are intended to be the air in the cargo tanks, the liquefied gas tanks and the empty cavities to be exchanged between the tanks and the shell structure by means of inert gas, which is extracted from the exhaust gas by means of a cleaning process is obtained to prevent explosions.

For example, in an oil tanker, the oxygen content is determined by exchanging a gaseous mixture of oil gas and air reduced in the tank by a gaseous mixture of oil gas and inert gas, whereby the oil gas becomes non-flammable and Explosions cannot occur even when a source of ignition is present. A system for the supply of inert gas to cargo tanks is therefore available in a tanker. In general, when the oxygen content is less than 11% is what is less than the oxygen content of 21% in the atmosphere

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is, hydrocarbon gas is non-flammable in the gaseous state regardless of its concentration. Consequently, if the content of oxygen is less than 5% in the explosion-proof inert gas, the result may be Explosion protection can be fully achieved.

Since this kind of an inert gas is easily obtained by using the exhaust gas of a boiler and a gas generator in a tanker can be used, the exhaust gas is usually used as an inert gas. However, as sulfur dioxide that corrodes the oil tanks and soot that The oil load is contaminated, contained in the exhaust gas and since the temperature of the exhaust gas is too high, a cleaning system is used provided to remove these destructive gases and bodies and to cool the temperature of the exhaust gas sufficiently.

In a known cleaning system, the exhaust gas flowing out of the tank of the oil tanker is through an exhaust pipe from branched off a boiler riser pipe and led through an exhaust valve into a sprinkler system. Large amounts of sea water for the Cooling and sprinkling of the exhaust gas are sprayed by spray nozzles from many pipes, which are arranged in the upper part of the sprinkler tower. By the exhaust gas having a temperature of about 250 to 450 C, through which sea water flows, if it is cooled to the temperature of the sea water and washed out at the same time, sulfur dioxide and soot are removed from the gas to be eliminated. After the cooled and cleaned exhaust gas has been drawn off by a gas blower, it is blown by a hydraulic one Gasket and other devices to prevent gas counter-flow led into the cargo tank.

In this case, since yes the exhaust valve with a gas of high

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Temperature, which also contains sulfur dioxide, a rubber seal can be used to prevent leaks are not used in the exhaust valve if this is used in the cleaning system described above. Consequently there are two methods, one of which is the shut-off method using an air curtain. The other works with sealing water, where sea water is deposited at the bottom of the sprinkler tower, into which the exhaust gas is fed through a gas inlet pipe. In the previous method, the shut-off effect is relatively low, since the Diameter of the exhaust pipes usually widths of 500 to 700 mm. The latter method has the economic disadvantage greater, since the fan is required to perform a greater job while it is working, and the seawater at the bottom of the sprinkler tower consequently has to be topped up continuously, even when the cleaning system is not in operation.

In these circumstances, even if the exhaust valve, when closed, is designed to allow gas to escape, such as described above, prevented, the rubber seal cannot be used for locking, as previously described; it is much more a metallic contact between the surface of the valve seat on the side of the valve housing and the surface of the valve seat, required on the valve disc. However, since perfect contact cannot be maintained due to thermal effects Expansion due to deformations due to high temperatures, corrosion caused by sulfur dioxide gas, damage from dust and soot, etc., gas leakage is common and the valve is often stuck.

In terms of the conventional type of flap valve, it is

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impossible to completely shut off the exhaust gas flow regardless of the material and the design used for the valve. A A similar result is obtained when a slide valve or a ball valve is used.

A description of the cleaning system for inert gas is given in given the following. When assessing the intended use of the system, the air in the full tank is first passed through Replacing inert gas, the inert gas filling operation is mainly carried out when the oil cargo is discharged and sometimes when the pressure of the inert gas in the tanks has dropped to a negative pressure, suggesting a decrease in temperature during due to shipping, and moreover at a time when mud, etc., is being washed off the walls of the cargo tanks. All these examples mentioned only use the cleaning system for a short period of work.

For example, the operation of this system takes inclusive the time to unload only takes about one to two days per voyage, which is usually about 45 days. While the rest of the duration of the voyage the system is inoperative. Since, as stated above, the working period of the system is very short and a large amount of seawater is continuously fed to the sprinkler tower for cooling and washing, the corrosion due to sulfuric acid does not occur even when ordinary acid-resistant materials are in the System have been used.

However, if the system has not been in operation for a long period of time, no cooling water is supplied and the exhaust gas that Contains sulfur dioxide, creeps through the closed exhaust valve

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and reaches the sprinkler tower or gas blower. Here the gas is cooled by the atmosphere through the outer walls. as As a result, sulfuric acid is continuously formed on the inner walls, causing damage to the system. If therefore an expensive special material is not used / will the service life of the cleaning system for inert gas extremely briefly in practice.

Based on the situation described above, the present aims Invention to eliminate the above-described deficiencies in that an exhaust valve of the sealing air type for prevention the leakage of exhaust gas is proposed in which an auxiliary valve disc in connection with the valve disc of a butterfly valve is provided with a pressurized fresh air zone for locking, which is formed between these panes.

The advantages and details of the invention are described below using an exemplary embodiment shown in the drawings explained in more detail. Show it:

1 shows a basic illustration of a cleaning arrangement known per se of an Ineigas system, as it is e.g. B. is provided in a tanker,

Fig. 2 is a vertical cross section of the exhaust valve in the closed Position,

FIG. 3 shows a horizontal cross section through the exhaust valve and FIG. 4 shows a partially sectioned illustration of the in a Pipeline built-in exhaust valve in a schematic representation.

The cleaning system is shown in principle in FIG. 1

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shown. The exhaust gas flowing out of the tosi boiler oil of a tanker is diverted ύοώ. an exhaust pipe 02 of a boiler riser pipe and passed through an exhaust valve 03 into a sprinkler tower 04. Large amounts of sea water for cooling and washing out the exhaust gas are sprayed through spray nozzles on many pipelines which are arranged in the upper part of the sprinkler tower 04. The exhaust gas, which has a temperature of about 250 to 450 C, has been cooled to the temperature of the sea water after it has been passed through the sea water and has been washed out at the same time in order to separate sulfur dioxide and soot from the gas.

After it has been removed by means of a gas blower 05,

(Water storage tank) is the exhaust gas through a hydraulic seal 06 / and others Devices which are provided for preventing a counterflow of the gas are fed into a cargo tank 07.

In FIGS. 2 and 3, an embodiment of the inventive Exhaust valve shown. This consists of an annular valve housing 1, which consists of an acid- and heat-resistant Cast iron is made that contains nickel and chromium. A valve spindle 2, which is made of a special steel with nickel, Chromium and molybdenum has been made, penetrates the valve housing 1 in a radial direction.

-Klügelaus-

-Level-A circular main valve disc 3 of the as a flap valve The exhaust valve formed is firmly connected to the valve spindle 2. Figs. 2 and 3 show the closed position of the exhaust valve, in which the valve seat ring 4 in connection with the valve housing 1 is - The valve seat ring 4 is firmly screwed onto the surface of a bulged part 3 a of the main valve disk 3. The convex arc of the bulged part 3a of the valve seat

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ring 4 and the concave arc of the valve housing 1 are in contact in the spherical shape 4 ', V , the center of the ball being in the center of the valve spindle 2, and the space (seat) between the arcs being around the same.

A circular auxiliary valve disk 5 is arranged parallel to the main valve disk 3. The auxiliary valve disk 5 is fastened to the valve spindle 2 in the same way as the main valve disk 3. An intermediate space S 'is formed between the auxiliary valve disk 5 and the inner circumference of the valve housing 1.

As can be seen from Fig. 3, 1 sealing air orifices are in the valve housing la attached, which connect a sealing air line 6 with the sealing air trap space S between the valve discs 3, 5 lies. The sealing air lines 6 are connected to the boiler compressed air blower through a pressure relief valve 6 '(FIG. 4).

There are connection brackets 7 for locking the valve spindle 2 both with the main valve disk 3 and with the auxiliary valve disk 5 provided. The connecting brackets 7 also serve to fix the valve spindle 2 with the main valve disk 3 and the auxiliary valve disk 5 by means of screws 8.

Stuffing box glands 9 are used to act on stuffing box packings 10 in stuffing boxes, which form parts of the valve housing 1 and which the valve spindle 2 penetrates.

Coupling flanges 11 are provided for connecting the pipelines on both sides of the valve housing 1. In the coupling flanges 11 screw holes 11 * are made, in which Screws inserted for connection to the pipeline flanges

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can be. An operating arm 12 is connected to the bottom of the Valve spindle 2 firmly connected.

The butterfly valve in the described embodiment is arranged so that the main valve disk 3 faces the irrigation tower Q4 is facing and the auxiliary valve disk 5 is facing the boiler 01. In Fig. 4, the closed position of the exhaust valve is shown. During this state, the sealing air trap area S is pressurized by the boiler compressed air blower, and fresh air, which can be set to a suitable boiler compressed air value by means of the pressure relief valve 6 ', becomes the sealing air trap S supplied through the sealing air outlets la. :

The air pressure AP, which is fed to the sealing air trap chamber S, is set so that it is greater than the exhaust gas pressure GP in:

the exhaust pipe 02. Fresh air from the sealing air trap space S enters the exhaust pipe 02 through the space S ^J , which is between the auxiliary valve disk 5 and the valve housing 1:

is available. On the other hand, exhaust gas never gets into the pressurized one Air zone in the air barrier through the space S * because of the higher air pressure AP in the air barrier ■ space.

If, however, fresh air from the sealing air trap chamber S penetrates through the seal formed by the main valve disk 3, it is achieved the sprinkler tower 04 and furthermore the gas blower 05:

during a long sea voyage. As can be seen in Fig. 1;

this fresh air that has leaked through can easily be intercepted at valve 05 * which may contain a rubber seal. If leaks occur at this valve 05 ', the penetrating Fresh air from the water shut-off tank 06 is intercepted,

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which prevents a counter-flow of oil gas from the cargo tanks 07. The pipeline from the gas blower 05 is in the water termination tank 06 and 300 mm of one end of this pipeline is immersed in the water termination tank 06. Should the If the air pressure AP in the sealing air trap chamber S is less than the 300 mm corresponding water pressure column WP, the leakage air completely intercepted at the water seal tank 06, and there is no longer any risk of air leaking into the cargo tanks 07 achieved.

The above-mentioned sealing air pressure is expediently about 200 mm with regard to actual exhaust gas pressures, which are about 150 mm, while the length of the submerged pipeline is about 300 mm. When the sprinkler tower 04 is in operation is set and the pressure relief valve 6 'is closed and the exhaust valve is open, the exhaust valve can be operated like a normal Working exhaust valve.

The present invention provides total leakage prevention through the formation of a permanent exclusion zone of pressurized air, while maintaining the previous design of the butterfly valve and a simple one Construction of an auxiliary valve disc 5 added.

When the present invention is applied to cargo tanks of oil tankers and liquefied gas carriers which have recently become large in size As a result, the inert gas system can be sustained for a longer period of time. The present invention is therefore a great asset to the shipping industry, in particular with regard to tanker shipbuilding.

Claims : 409832/0345

Claims (2)

Patent claims: 1. Exhaust valve for arrangement in the exhaust pipe of a boiler or a gas generator, for gas exchange in liquid charge containers, such as B. Oil cargo tankers and LPG transporters, in a cleaning process with inert gas, characterized in that the main valve disc (3) on the side of the boiler or the Gas generator in the valve housing (1) is assigned an auxiliary valve disk (5) and that between the valve disks (3, 5) The sealing air trap chamber (S) formed with pressurized fresh air a pressure that is greater than the exhaust gas pressure in the boiler or in the gas generator, can be supplied when the valve is closed. 2. Exhaust valve according to claim 1, characterized in that it is designed as a butterfly valve and the fresh air in the Sealing air trap is supplied through sealing air openings (la) in the valve housing (1). 409832/0345 Blank page